planetroll Planetary Gearheads

planetroll Planetary Gearheads www.diequa.com 630-980-1133

Overview Planetary Servo Gearheads by Planetroll German Engineered - Ecomically Priced The Planetdrive series of precision planetary servo gearheads provide an ecomical solution for motion control applications requiring high reliability and superior performance. A wide variety of features, benefits, and special options are incorporated to maximize design versatility and satisfy the most demanding application requirements. Program Benefits Ecomical price for cost effective system integration. Self-centering design for easy servo or stepper motor mounting. Maintenance-free operation with lifetime grease lubrication. Mounting in any direction for design versatility High strength integral steel ring gear for maximum performance. Aluminum input and output flanges for low weight. Thermal expansion compensation system to accommodate temperature variations. Input adapter plates for mounting all Servo, Step, NEMA, and Metric motors. Explosion proof options with ATEX certification Optional output adapter flanges for alternate mounting dimensions. Selection Guide Contents Overview... pg. 2 Design Features... pg. 3 Sizing Programs... pg. 4 Selection Charts... pg. 5 Technical Data... pg. 6 Dimensions... pg. 7 Ordering Example... pg. 8 Flange s... pg. 8-9 Radial & Axial Load Ratings.. pg. 10 Assembly Instructions... pg. 11 2 --- The data in this catalog is subject to change and is intended for reference only ---

Design Features Planetdrive incorporates many of the advanced design features used in more expensive planetary gearheads. Aluminum bearing supports result in lower weight and better heat dissipation Precision ring gear is machined directly inside the steel casing One piece input shaft and pinion for better concentricity Bolt-on output flange options, permits gear motor style mounting Tapped shaft end for retaining driven components Sealed ball bearings for precise rotary motion One piece planet carrier and output shaft provides better concentricity Precision spur gears for high torque and quiet operation Thermal expansion system eliminates axial loads on motor bearings Planet gears supported by needle bearings for higher speed Open tolerance piloting accommodates motor pilot dimension variations Balanced locking collar eliminates vibration Split motor shaft adapter bushing for positive motor connection Adapter plates for virtually all Servo, Step, NEMA, and Metric motors Lifetime Lubrication www.diequa.com 3

Sizing Program The quickest and most reliable method to determine the appropriate gearbox size for a specific application is a comparison of motor peak torque with gearbox data. In case the motor peak torque exceeds the permitted gearbox values, a calculation based on the actual application specific torque is required. Considering run time ED, and load cycle duration EZ Continuous Duty (S1) Determination of motor minal torque T 1NMot ED 60% or EZ 20 min. Cycle Duty (S4/S5) Determination of motor peak acceleration torque T 1BMot Determination of gearbox output minal torque T 2n = T 1NMot x i Determination of gearbox output peak acceleration torque T 2b = T 1BMot x i Select larger gearbox size or different ratio Select larger gearbox size or different ratio T 2n T 2N T 2b T 2B* Determination of minal motor speed n 1n Determination of maximum motor speed n 1max n 1n n 1N n 1max n 1Max Determination of motor shaft diameter Determination of motor shaft length D Mot L1 Mot Determination of motor shaft diameter Determination of motor shaft length D Mot L1 Mot D Mot D1 L1 Mot L1 min L1 Mot L1 max D Mot D1 L1 Mot L1 min L1 Mot L1 max Gearbox Selection Completed * Valid for numbers of cycles < 1000 cycles per hour, percentage of total running time < 5% and duration of impulse less than 0.3 sec. T 1NMot T 1BMot T 2n T 2b T 2N T 2B* minal torque (from motor data) acceleration torque (from motor data) minal torque on gearbox output side acceleration torque on gearbox output side minal output torque (from catalog) acceleration torque (from catalog) n 1n n 1N n 1max n 1Max i rated speed of motor (from motor data) rated input speed (from catalog) maximum motor speed (from motor data) maximum perm. input speed (from catalog) ratio D Mot D 1 L 1Mot L 1min L 1max motor shaft diameter (from motor data) motor shaft diameter (from catalog) motor shaft length (from catalog) minimum length of motor shaft (from catalog) maximum length of motor shaft (from catalog) 4

Selection Charts Size PD040 Size PD065 Size PD085 Size PD120 Size PD155 Ratio Stages T 2N T 2B T 2E T 2N T 2B T 2E T 2N T 2B T 2E T 2N T 2B T 2E T 2N T 2B T 2E Nm Nm Nm Nm Nm 3 1 --- --- --- 13 25 39 35 70 105 85 160 255 160 290 480 4 1 4 8 12 14 28 42 45 88 135 90 180 270 250 375 750 5 1 4.5 8 13 16 32 48 45 90 135 110 210 330 270 405 810 7 1 4.5 8 13 15 28 45 43 86 129 90 160 270 270 405 810 9 1 4 7 12 --- --- --- --- --- --- --- --- --- --- --- --- 10 1 --- --- --- 14 25 42 35 70 105 80 160 240 160 290 480 16 2 5 10 15 19 34 57 55 98 165 100 180 300 270 405 810 20 2 5 10 15 19 34 57 55 98 165 100 180 300 270 405 810 25 2 5 10 15 21 40 63 58 105 174 100 210 330 290 435 870 28 2 5 10 15 21 40 63 55 98 165 100 180 300 270 405 810 35 2 5 10 15 21 40 63 58 105 174 110 210 330 290 435 870 40 2 --- --- --- 21 40 63 55 98 165 100 180 300 270 405 810 49 2 5 10 15 --- --- --- --- --- --- --- --- --- --- --- --- 50 2 --- --- --- 21 40 63 58 105 174 110 210 330 290 435 870 70 2 --- --- --- 17 32 51 50 90 150 95 175 285 290 435 870 100 2 --- --- --- 16 29 48 35 70 105 85 160 255 170 310 510 Torque Ratings T 2N = Nominal Torque (continuous operation) T 2B = Acceleration Torque (1000 cycles per hour, duty < 5% of run time) T 2E = E-Stop Torque (1000 times per lifetime) Inertia Conversions 1 kgcm 2 = 0.0001 kgm 2 1 kgcm 2 = 0.0009 lbinsec 2 1 kgm 2 = 10000 kgcm 2 1 kgm 2 = 8.85 lbinsec 2 1 lbinsec 2 = 1130 kgcm 2 1 lbinsec 2 = 0.113 kgm 2 Moment of Inertia kgcm 2 Ratio Stages PD040 PD065 PD085 PD120 PD155 3 1 --- 0.367 1.62 3.66 10.6 4 1 0.060 0.324 1.44 2.97 7.8 5 1 0.058 0.314 1.36 2.68 6.8 7 1 0.057 0.304 1.30 2.48 6.1 9 1 0.056 --- --- --- --- 10 1 --- 0.299 1.27 2.39 5.8 16 2 0.060 0.321 1.42 2.96 7.0 20 2 0.058 0.312 1.35 2.68 6.4 25 2 0.058 0.311 1.35 2.67 6.3 28 2 0.058 0.303 1.29 2.48 6.1 35 2 0.057 0.303 1.29 2.47 6.0 40 2 0.057 0.299 1.26 2.40 5.8 49 2 --- --- --- --- --- 50 2 --- 0.299 1.26 2.39 5.8 70 2 --- 0.298 1.26 2.39 5.8 100 2 --- 0.298 1.20 2.39 5.8 www.diequa.com 5

Technical Data Maximum Backlash in Arc Minutes Size Stages 1 2 PD040 15 25 PD065 12 15 PD085 10 15 PD120 10 12 PD155 8 10 Efficiency % - Full Load Size Stages 1 2 PD040 96 94 PD065 97 94 PD085 96 94 PD120 96 94 PD155 96 94 Rated Input Speed in RPM Size Continuous Intermittent PD040 3000 6000 PD065 3000 6000 PD085 3000 5000 PD120 3000 5000 PD155 2600 3600 Other Data Lubrication Lifetime Grease Operating Temperature -25C to +90C Mounting Position Any Protection IP64 Running Noise 70 db(a) Life Rating 20,000 hours Torsional Rigidity Nm/arc min Size Stages 1 2 PD040 0.4 0.5 PD065 1.6 2 PD085 4.8 6 PD120 10 13 PD155 34 37 Approximate Weight in kg Size Stages 1 2 PD040 0.3 0.4 PD065 1.3 1.7 PD085 2.6 3.5 PD120 6 8.6 PD155 12.6 17 --- For axial and radial load capacities, please see page 10 --- 6

Dimensions Output Side Input Side Optional B5 or B14 Output Flange Dimension Description PD040 PD065 PD085 PD120 PD155 D1 Max. Motor Shaft Diameter 11 14 19 24 32 D2 Motor Pilot* 22-60 22-80 50-110 50-180 70-230 D3 Bolt Circle* 32-75 40-100 60-130 65-215 85-265 D4 Bore/Thread* M3 - M5 M3 - M6 M4 - M8 M4 - M10 M5 - M12 D5 Output Shaft 10 k6 14 k6 20 k6 25 k6 40 k6 D6 Output Pilot 25 h7 40 h7 55 h7 80 h7 110 h7 D7 Output Bolt Circle 33 52 70 100 130 D8 Bore/Thread M4 x 8 M5 x 10 M6 x 12 M8 x 16 M10 x 20 D9 Housing 40 65 85 120 155 D10 Shaft End Thread M4 x 10 M5 x 12.5 M6 x 16 M10 x 22 M16 x 36 L1 Input Shaft Length* 14-30 19-40 24-45 27-69 30-79 L2 Pilot Depth* 3-5 3.5-7 3.5-7 4-7 4-10 L3 Flange Diameter* 40-85 65-100 85-120 120-180 155-220 L4 Flange Width* 22-31 20-35 26-40 31-50 37-54 L5 Output Shaft Length 23 30 40 50 80 L6 Pilot Depth 5 8 8 10 14 L7 Install. Dimension 29 39 49 61 95 L8 Key Length 18 25 32 40 70 L9 Length - 1 Stage 68 105 133 165 223 L9 Length - 2 Stage 84 129 164 201 267 U Key Width 3 5 6 8 12 T Height Over Key 11.2 16 22.5 28 43 B5 Output Flange** Ø 90, 105, Ø 200 Ø 250 Ø 80, 90 Ø 120, 160 B14 Output Flange** 120, 160 Ø 160, 200 Ø 200, 250 All dimensions are in mm * Actual dimensions depend on motor selected. See pages 8-9 for details. ** Contact factory for ordering instructions. www.diequa.com 7

Ordering Example P D 1 2 0 C A B 0 2 8 1 A A 1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Box Description 1-5 Planetary Gear Size PD120 6 Motor Shaft C 7-8 Flange AB 9-11 Ratio 028 12 Keyed Output Shaft 1 13-14 Standard Output Shaft AA 15 Black Finish 1 Note: Boxes 12-15 represent standard design. Special design codes are available upon request. Box 1-5, Gearhead Size s PD040 PD065 PD085 PD120 PD155 Box 6, Motor Shaft Size PD040 Size PD065 Size PD085 Size PD120 Size PD155 Motor Shaft D1 Motor Shaft D1 Motor Shaft D1 Motor Shaft D1 Motor Shaft D1 A 3 A 6 A 9 A 14 A 19 B 4 B 7 B 10 B 15 B 22 C 5 C 8 C 11 C 16 C 24 D 6 D 9 D 12 D 19 D 28 E 7 E 10 E 14 E 22 E 32 F 8 F 11 F 15 F 24 F 14 G 9 G 12 G 16 G 11 G 15 H 10 H 14 H 19 H 12 H 16 I 11 I* 6.35 J* 9.53 L* 12.71 K* 12.71 J* 6.35 J* 9.53 K* 12.71 M* 15.89 L* 15.89 K* 9.53 K* 12.71 L* 15.89 N* 19.07 M* 19.07 * NEMA Dimensions 8 Box 7-8, Motor Adapter Flange s Additional flange codes available upon request. Input Side Flange D2 D3 D4 Size PD040 L1 min. L1 max. L2 L4 L10 AA 25 32 M3 15 27 3 28 4.5 AB 25 63 M5 14 26 3 27 3.5 AC 30 46 M4 14 26 3 27 3.5 AD 35 65.5 M5 14 26 3 27 3.5 AE 30 46 M5 14 26 3 27 3.5 AH 30 45 M3 15 27 3.5 28 4.5 AI 50 70 M4 18 30 3.5 31 7.5 AJ 22 43.8 3.5 14 26 2.5 27 3.5 AK 22 48 M3 14 26 3 27 3.5 AQ* 38.3 66.7 M4 14 26 3 27 3.5 * NEMA Dimensions

Motor Adapter Flange s Box 7-8, Motor Adapter Flange s, cont d Flange D2 D3 D4 Size PD065 L1 min. L1 max. L2 L4 AA 30 45 M3 19 30.5 4 23 5 AC 36 70.7 M4 19 30.5 4 23 5 AD 40 63 M4 19 30.5 4 23 5 AE 40 63 M5 19 30.5 4 23 5 AF 40 70 M4 19 30.5 4 23 5 AG 50 60 M4 19 30.5 4 23 5 AH 50 65 M5 19 30.5 4 23 5 AI 50 70 M4 19 30.5 4 23 5 AJ 50 70 M5 19 30.5 4 23 5 AK 50 80 M5 19 30.5 4 23 5 AL 50 95 M6 19 30.5 4 23 5 AM 50 100 M6 19 30.5 4 23 5 AN 60 75 M5 19 30.5 4 23 5 AO 60 90 M5 19 30.5 4 23 5 AP 70 90 M5 21 32.5 4 25 7 AQ 70 90 M5 23 34.5 5.5 27 9 AR 70 90 M6 19 30.5 4 23 5 AS* 73.1 98.5 M5 19 30.5 4 23 5 AT 80 100 M6 19 30.5 4 23 5 AU 22 48 M3 19 30.5 4 23 5 AV 45 65.5 M5 19 30.5 4 23 5 AW 73.1 99 M6 22 33.5 4 26 8 AX 80 100 M6 29 40.5 7 23 15 BA* 38.3 66.6 M4 19 30.5 3.5 23 5 BI* 73 98.5 M5 27 38.5 4 31 13 Flange D2 D3 D4 Size PD085 L1 min. L1 max. L2 L4 L10 L10 AA 50 60 M4 24 41 4.5 28 5.5 AB 50 65 M5 24 41 4.5 28 5.5 AC 50 70 M4 24 41 4.5 28 5.5 AD 50 70 M5 24 41 4.5 28 5.5 AE 50 80 M5 24 41 4.5 28 5.5 AF 50 95 M6 24 41 4.5 28 5.5 AG 50 100 M6 24 41 4.5 28 5.5 AH 60 75 M5 24 41 4.5 28 5.5 AI 60 90 M5 24 41 4.5 28 5.5 AJ 70 90 M5 26 43 5.5 30 7.5 AK 70 90 M5 28 45 5.5 32 9.5 AM* 73.1 98.5 M5 24 41 4.5 28 5.5 AO 50 95 M6 25 42 5.5 29 6.5 AP 50 100 M6 25 42 5.5 29 6.5 AR 60 99 M6 24 41 4.5 28 5.5 AS 70 90 M5 24 41 4.5 28 5.5 AT 70 90 M6 24 41 4.5 28 5.5 AU 80 100 M6 24 41 4.5 28 5.5 AV 95 115 M8 24 41 4.5 28 5.5 * NEMA Dimensions Flange D2 D3 D4 Size PD120 L1 min. Box 9-11, Ratio s L1 max. L2 L4 L10 AA 50 95 M6 28 52 6.5 32 7.5 AB 50 100 M6 28 52 6.5 32 7.5 AC 60 75 M5 27 51 5.5 31 6.5 AD 60 99 M6 27 51 5.5 31 6.5 AE 70 90 M5 27 51 5.5 31 6.5 AF 70 90 M6 27 51 5.5 31 6.5 AG 80 100 M6 27 51 5.5 31 6.5 AH 95 115 M8 27 51 5.5 31 6.5 AI 95 130 M8 27 51 5.5 31 6.5 AJ 110 130 M8 27 51 5.5 31 6.5 AK 110 130 M8 38 62 7 42 17.5 AL 110 145 M8 45 69 7 49 24.5 AM 110 165 M10 38 62 7 42 17.5 AN 80 100 M6 45 69 7 49 24.5 AO 95 115 M8 45 69 7 49 24.5 AP 95 115 M8 31 55 7 35 10.5 AQ 95 115 M6 27 51 5.5 31 6.5 AR 50 70 M4 27 51 5.5 32 6.5 Flange D2 D3 D4 Size PD155 L1 min. L1 max. L2 L4 L10 AA 95 115 M8 30 64 6.5 39 8.5 AB 95 130 M8 30 64 6.5 39 8.5 AC 110 130 M8 30 64 6.5 39 8.5 AD 110 145 M8 30 64 6.5 39 8.5 AE 110 145 M8 40 74 10 49 18.5 AF 110 145 M8 45 79 10 54 23.5 AG 110 165 M10 30 64 6.5 39 8.5 AH 130 165 M10 40 74 10 49 18.5 AI 80 100 M6 30 64 6.5 39 8.5 AJ 130 215 M12 30 64 6.5 39 8.5 AK 70 90 M5 30 64 6.5 39 8.5 1 Stage Ratio 003 3 004 4 005 5 007 7 009 9 010 10 2 Stages Ratio Ratio 016 16 040 40 020 20 049 49 025 25 050 50 028 28 070 70 035 35 100 100 www.diequa.com 9

Radial & Axial Load Ratings Radial Load Ratings The radial load ratings are a function of speed and required life. Size PD040 Output shaft speed (RPM) Size PD120 Output shaft speed (RPM) Lifetime (hours) Shaft center radial force (N) Size PD065 Output shaft speed (RPM) Size PD155 Lifetime (hours) Lifetime (hours) Shaft center radial force (N) Output shaft speed (RPM) Lifetime (hours) Shaft center radial force (N) Shaft center radial force (N) Size PD085 Output shaft speed (RPM) Axial Load Ratings Lifetime (hours) Size PD040 PD065 PD085 PD120 PD155 Rating 330 N 1080 N 2180 N 3730 N 7730 N Shaft center radial force (N) 1 Newton (N) = 0.22 Pounds 1 Pound = 4.54 Newtons (N) 10

General Instructions Assembly Instructions Mounting of the Planetdrive servo gearhead to the servo motor is easy and trouble free when following these simple instructions. The motor is connected to the gear drive via a rigid hollow pinion. Reduction bushings may be used to accommodate various shaft sizes. It is important to use motors with shafts that are concentric and perpendicular to the flange centering ring and mounting surface. To avoid motor misalignments the motor adapter centering ring has been manufactured with an open tolerance. This reduces problems with motors that have shaft to pilot concentricity inaccuracies. It is therefore important to te that the gear drive and motor should be assembled in a vertical orientation and the connection clamp should be tightened prior to tightening the flange bolts. More detailed instructions follow. The Planetdrive planetary gears are provided with lifetime lubrication and are maintenance free. Motor Mounting Instructions 1. If a key (2) exists in the motor shaft, it should be removed. With motor speeds over 3000 rpm there may be a possibility of motor shaft imbalance. The motor key seat should then be filled with a modified key which must t extend beyond the key way surface. 2. Remove the shaft clamp access hole plug (3) located in the motor adapter plate. 3. Turn the clamping element (5) until the head of the clamping screw (7) is visible through the access hole. 4. Examine the adapter flange (4), hollow bore(6), motor flange, and motor shaft for any scoring, nicks, or burrs. Clean all surfaces. 5. With some flange sizes, the adapter flange may have to be mounted on the motor first before attaching the gearbox. 6. Place the motor (1) in a vertical position with the shaft up. If the motor has a key way, it should be aligned opposite the split in the clamping element. 7. If a bore reduction bushing is used, the bushing split and clamping element split should be aligned. 8. Slide the gear drive carefully and evenly onto the motor shaft. Do t press or strike to aid assembly. If the gear drive is too heavy use a lifting device. The motor adapter face should seat completely on to the motor flange surface. 9. Tighten the clamping element screw (7) first to guaranty proper alignment. Use a torque wrench to assure the proper tightening torque. 10. Insert and tighten the (4) flange bolts. 11. Replace the shaft clamp access hole plug (3). Note: Inappropriate assembly can lead to damage and invalidate the warranty. Tightening Torque of the Clamping Screw PD040 M4 4.2 Nm PD065 M5 8.3 Nm PD085 M8 43 Nm PD120 M8 43 Nm PD155 M8 43 Nm www.diequa.com 11

Other Servo Gearhead Products ServoFoxx Varvel Dynabox WATT Drive Precision Planetary & Bevel Gearheads Ecomy Right Angle Worm Gearheads Right Angle Precision Gearheads Helical Gearing Servo Gearheads The DieQua Advantage DieQua Corporation has been a manufacturer and supplier of precision motion control components for over 30 years. We offer the widest range of servo gearhead and speed reducing solutions available from a single source. Featuring right angle and inline designs with multiple backlash precision levels, the largest number of ratios, and several mounting and output options, we have the drive that meets your needs. Engineering Support DieQua Corporation has several decades of combined experience specifying power transmission and motion control components. This assures the proper selection of components and systems for your unique requirements. Assembly DieQua Corporation has a team of factory trained technicians that assemble the majority of the drives we provide. This allows prompt delivery of your production requirements or service repairs. Warehousing DieQua Corporation maintains an extensive inventory of common speed reducer and motor components for quick delivery of small orders, prototypes and spare parts. Manufacturing DieQua Corporation s manufacturing capabilities allow production of many of the components used in the drives we provide. Mounting components and design modifications are also available from our full service machine shop. Sales Partner: Motion Components and Engineering Services 180 Covington Drive, Bloomingdale, Illiis USA 60108-3105 Phone: 630-980-1133 Fax: 630-980-1232 Email: info@diequa.com Web: www.diequa.com 072014/3M